Ice-cream scoop



May 19, 1953 LE ROY J. M COY, JR

ICE-CREAM SCOOP 2 Sheets-Sheet 1 Filed July 10, 1947 INVENTOR. M"w

ATTOQNEY May 19, 1953 LE ROY .1. MCCOY, JR

ICE-CREAM SCOOP Filed July 10, 1947 2 Sheets-Sheet 2 A M & III

I /l/ I INVENTOR. 41 4 01.

1/ 11 1 IILLLI I II I III] Patented May 19, 1 953 UNITED STATES, PATENT OFFICE I ICE-CREAM scoor Le Roy. J. McCoy, Jr., Richmond, Calif. Application July 10, 1947, Serial No. 760,030

4 Claims,

, V V I 1 I The present invention relatesto ice'cream dispense'rs" or scoops and particularly to scoops for forming slices of ice cream from bulk containers in a la mode servings for pie, or cake, or the like;

At present most of the ice cream dispensed for pie a'la mode" is served in the shape of a ball deposited on the top of the pie sector. Due principally to the shape in which the ice cream is served, it is difficult to eat a small portion of the serving without crushing the upper crust of the pie, or having the ball roll or slide on to the plate. Such ball-shaped ice cream servings are patently unsuited for pies and the like and continue so because the ice cream dispensing tools were designed specifically tofit round cups for fountain servings.

An important object therefore of the present invention is the provision of a device for serving ice cream portions for pie a la mode, or cake ala mode, in fiat slices and in the customary wedge shape of the pie or cake sector, instead of the usual balls, and thus promote a greater appetite appeal and demand for such servings.

Up to the present time it has been customary when using the conventional ice cream scoop, to

dip itinto a jar of water, placed conveniently near the ice cream supply, before each serving. The reason for this unsanitary procedure stems from the simple fact that unless either this or something similar is done, the ice cream will freeze and will adhere to the metal scoop to such an extent that successive servings become diflicult, and may even make the release of a single serving diflicult. More likely than not, the scoops normally remain partially submerged in the open water jars between servings and although the used water in the jar is replaced with fresh water at intervals, it certainly is not changed often enough. It is inevitable that the water soon becomes mixed with the adhering ice cream and other contaminations. This entire handling of serving scoop is an extremely unapj petizing procedure, and distasteful to the average consumer who knows it is being done even though it may not always be observed.

able features and practices by the provisionof a device which does not require dipping inwater prior to each serving or soaking in water dur ing the periods when it is not inuse.

It is a further object of the present invention I to provide a device for-serving ice creamwhich its walls to prevent the ice cream from adhering or freezing to its surfaces, to assist in the easy delivery of each serving, and to present a smooth, glossy appearance on the surface of each portion.

In the dispensing of ice cream from bulk containers using the presently accepted types of scoops, hills and valleys are formed on the surface because of the digging, scraping and thrusts required to obtain a serving. These unevennesses and loose pieces of ice cream cause air pockets in the subsequent servings to the irritation and annoyance of the customer who is entitled to a full portion; The present invention is particularly designed to do away with this sort of customer complaint and at the same time speedthe number of servings which can be made per unit of time.

Still another object of the present invention eliminating loss and waste from ice cream adhering to the wall.

Furtherobjects are to provide a construction of maximum simplicity, economy and ease of assembly and disassembly for cleaning purposes, also such further objects, advantages and capabilities as will fully appear and as are inherently possessed by the device and invention described herein.

The invention further resides in the combination, construction and arrangement of parts illustrated in the accompanying drawings, and while there is shown therein a preferred embodiment, it is to be understood that the same isjillustrative of the invention, and that the invention is capable of modification and change and comprehends other details of construction without departing from the spirit thereof, or the scope of the appended claims.

Referring now to the drawings: Figure 1 is a top plan View of the device of the present invention showing the general arrangement of the several parts.

Figure 2 is a sideelevation of Figure 1, with certain concealed members being shown in dotted has a-low freezing point substance sealed within lines.

Figure 3 is a vertical section taken on the line IIIIII of Figure 1 and looking in the direction of the arrows.

Figure 4 is a horizontal section taken on line IVIV of Figure 2 showing the ejector arm in normal position in full lines and its ejecting position in broken lines.

Figure 5 is a fragmentary sectional plan view taken on line VV of Figure 2 showing the linkage between the thumb lever on the handle and the ejector arm within the scoop.

Figure 6 is an expanded perspective view of the ejector mechanism removed from its hous- In the drawings, wherein like characters of reference designate correspondin lfin'lflisthronghs out the several views, the body portion or shell Ill of the device of the present invention consists of two spaced pie shape members II and 12 joined together along the arc of the sector by a vertical arcu te Wall Id. The lower sector II body portion or shell It provides a pie shape space between the two sectors, which is closed only by the wall I l along the .arcuate side. The are of the double wall I4 is precisely that of the inner face of the conventional bulk ice cream container or can which is the same for both gallon and five gallon containers.

On both of these sectors "II and i2. being double walled, the leading or front edge islc'losed and curved upwardly in each instance to provide cutting edges I5 and I1 respectively. The trailing edges of each sector are also closed and curved, except that in this instance both traile ing edges [8 and 29 are-curved toward each other. In other words the trailing edge 2B is directed downwardly and the trailing ed e [.8 is directed upwardly.

Mounted on the top surface of the pie shape sector I2 and at an acute angle with respect to the plane of the leading or cuttin ed e 11,,

is the handle assembly generally designa'tedl'l. The handle 22 extends upwardly at .an angle from and is supported by a vertical pedestal 2'3 arising out of the upper wall of the sector I5 and perpendicular to the plane thereof. this manner a convenient hand grip is provided. The angularity of the handle 22 with respect to the plane of body portion It and the line of the .lead-. ing edges I6 and Il, enables the user to bring considerable pressure to bear on the leading edges I6 and I! in making a serving. Also the location and positioning of the handle 22 makes it easy to follow the inner cylindrical surface of the container with a natural turning motion of the device. The pedestal 23 and the handle '22 are both hollow and in communication with each other as is shown in Figure 3. The interior of sector I 2 is in open and free communication with the interior of pedestal '23 and handle 22 so that liquid or other suitable material is free 'to travel from the handle through the pedestal, through sector I2, through arcuate wall 14 to the lower sector II, and vice versa.

The upper or gripping end of the 'handle '22 is closed'with a plug 24. It will be observed that the opening which is 'sealedby the plug '24, provides a means for supplying the interior cavities of the device, in the first instance, with a suitable material having a low freezing point and here shown as a liquid refrigerant 25 such as Freon. Normally the plug 24 is driven into place so that there will be no leakage, evaporation or other escape. However, the plug may be removed for another charge of refrigerant 25, if the need arises. The device operates with efficiency if the space is not filledbeyond the level 23 as indicated. 1

Toward the apex 21 of the lower pie shaped sector II the double walled member becomes a single fiat bearing surface 28. It is pierced vertically by a stationary fulcrum pin 3!! which forms 'thep-ivct for the ejector arm 3| which is preferably integral with and extends from the ejector hub 3'1, and normally lies adjacent and between the trailing edges I8 and 2B of both segments II and I2 substantially closing the chamber between the two along the trailing edges. The lower sector II toward the apex 21 is provided with an arcuate guide 3.3 which fits into and rides within a groove 34 out on the inner vertical faceof the ejector hub 32 adjacent its lower bearing surface. Similarly the double walls of the upper sector I 2 are brought together to form an arcuate guide near its projected apex, which fits into and rides in .a groove or slot 35 cut in the inner vertical face ofthe ejector hub .32 near its uppersurfaee. Inthe complete assembly of the device, these guides 33 and 35 and slots 34 and 3E serveto prevent the open or free ends of the sectors 1 I and I2 from spreading when the device is forced into or against the ice cream mass in a container and also function to hold the ejector arm 3I free from contact with the smooth inner faces of sectors I I and Ill.

As stated above the ejector .34 is an arm extending substantially tangentially from the hub 32,, at the apex of the sectors and in its normal position, substantially closes the chamber between the sectors along the trailing edge. The arm or blade SI may be ueshaped for lightness with reinforcement 33' as it approaches the hub 2- he f t 4' of t e ush r fac s in.-

erdlw th s ct o the hamb med by he b er secto s. ad s he rushin sur e for the ejection of the serving. .The hub .21, which i an irregular ovoid, .is drilled on its upper surface at is to receive the excentric crank pin 15E: and at the opposite side is provided stop pin 36- To the rea of the pedestal 23 and preferably integral therewith a rectan ular housing .3! w i h a s up thr u h th handle. and projects ju l ghtly above :it- Th s usin has :a rectangular axial bor .38 to accommodate .and Len? close a portion of h el ct r operatin mechanism, As will be observed in Figures .2 and .3.

the housing .37! does not extend to the upper surface .of sector I2 but stops :ShOI to provide spacefor certain linkages hereinafter described. The ax al bore 3.8 does not communicate with the fluid cavities within handle 22 or 'pedestalzs but on the contrary .is-sealed from such communicate tion. The housing 31however doesnot block the flow or passage in handle-22 {as i plea-fly shown in Figure 11.

The ejector mechanism which o perate in as,

sponse to pressureon the thumb lever 40 tomove the ejector armor .blade SI f.onwardzaroundgpiyot pindfl todescribe the arc of the sec-tor, )fits :in the rectangular .bore 38. .of housing 3?. Figure 5 skews t i h nism mo e rom the-.housing. It consists ofja rectangular block 4| which propriate angle so thatpressure on the thumb:

lever will rotate the stem 42. Near the lower end of the said block a recess 43 is provided in the path of the drilling for the stem 42 sufficient to retain the coil spring 44 and still remain Within the outer dimensions of the block. It will be noted that when th spring 44 is in positionthe stem 42 passes axially through it and helps to retain its position and form. A lateral cut 45 is made in block 4| to receive one of the free ends 46 of the spring 44. The tip 41 of end 46 is turned at right angles to the longitudinal axis of the block 4! and is of suflicient length to project slightly when tension is put on the spring 44. The turned tip 41 of end 45 is calculated to register in the lateral hole 48 drilled through the wall of the housing 31. When the ejector mechanism is in place in its housing it cannot be moved vertically because of this locking.

Positioned just below block 41 and its housing 31, is linkage member 50 which is secured to the lower end of stem 42 and is substantially the same in sectional areas as the'block 41. The other free end 5! of spring 44 is bent downwardly through a groove in the face of block 4| and is retained in notch 52 in the linkage 55. A crank pin 53 is secured in member 50) and projects downwardly. Between the linkage member 55 and the upper surface of segment I 2 is linkage member 54, best viewed. by reference to Figure 5. It is provided at its inner end with hole 55 which is adapted to receive crank pin 53. Atits outer end crank pin 55 is secured, fitting into the corresponding hole 35 in hub 32. On the forward side of linkage member 5-4 adjacent the inner end it is cut away to abut two sides 'of the pedestal 23. Thus, in the position of rest, shown in full lines in Figure 5, any force applied to the face 34 of the ejector arm 3| would beresisted by the bracing and locking of this linkage against the two faces of the pedestal.

The manner of using the device of the present invention is easy and reliable. The operator using the device simply grasps the handle 22 in a natural, comfortable mannerand in so doing the thumb of the right hand naturally rests against the surface of the thumb lever 40. It is not necessary to first dip the device in water as it remains relatively warm, even in direct contact with the frozen material, due to the low freezing point material 25 within the hollow walls. In this position the device is advanced into the ice cream container and is pushed in a substantially horizontal plane with an arcuate motion with the outer surface of the arcuate wall 14 substantially engaging the curved surface of the ice cream container. As the device is passed around the container in this manner, the upwardly curving advancing edges l6 and I! will tend to cause the device to rise at the front. The angle of the handle however will tend to cause a greater pressure at the forward edge and produce the necessary cut or shearing action. The ice cream is principally cut by the lower edge l5 and the forward motion along this edge causes the ice cream to enter the chamber between the two sectors I l and I2. Ice cream will be received into this chamber due to the forward 6: movement until it is packed solidly. against the inner face 34 of the ejector arm 3|; The spaces Hand 58 between the upper and lower surfaces of the ejector iarm ill and th upper and lower inner faces of the sectors l2 and ,I I, will permit the escape of any entrapped air and so the serv ing of ice cream will be packed solidlywithin the receiving chamber without further ado. It is apparent that the serving conforms to the shape of the sectors and is flat.

The filled device is then removed from the. ice cream container. The serving is released when the operator presses the ejector lever 40 with his thumb. The pressure soexerted causes the:

ejector lever 40 to advance counterclockwise in the direction of the arrow. The advancing of this lever rotates stem 42 and since linkage member, 50 is attached at the lower end, this likewise ro-- Since spring end 5| isretained in linkage tates. 50, the rotation is against the pressure of spring 44. Crank pin 56 moves in an arc in a horizontal plane, causing linkage 54 to move outwardly and awayfrom its position of reposeas shown. in broken lines in Figure 5. With this motion the force is directed through the rotatably. mounted crank pin 56 against the pivotpin 30 .rigidly mounted on the bearing surface 28 causing the hub 32 to move about said pivot. pin 30. Since the crank 30 is excentric and engages on the opposite side of the hub from .the ejector. arm 3!, the rotation of the hub is such as to cause the ejector arm 31 to pass through between the inner surfaces of sectors I i and I2 and dispense or eject the serving of ice cream therefrom. The forward movement of the ejector arm 3i is stopped just as, it passes the entering edge I 6 in the positionshown in Figure 4, by the movement of linkage 54 being stopped by abutting against pin 35 projecting from the upper surface of hub.32.

The ejection of the ice cream is in a perfect pie shape sector of uniform thickness. The ejection is further rendered easy, effortless and at-, tractive because of the presence of the fluid re-. frigerantcontained within the device. Because of the heat exchange relationship with the low freezing point material, the main parts of the device, including the handle, are prevented from ever reaching a freezing temperature so that when the ice cream is dispensed from the device, the melting on the upper and lower surfaces thereof, in addition to making ejection easy will give the serving a smooth, glossy, attractive ap-.

pearance. I

After dispensing the serving, the pressure on pose, ready for the next use, by the spring .44. It is understood that other spring means may be utilized for returning the ejector to its normal position and also that the lever for operating the ejector may be placed directly on the hub of the ejector arms without departing from the spirit of the invention.

When it is desirable to clean the scoop it may be immersed in boiling Water without disassembly, as all parts are rust proof. Any possible danger as the result of pressures due to expansion of the low melting point material may be eliminated by evacuating the handle 22 at the time the charge of the material is placed therein. When it is desirable to disassemble the scoop for a more thorough cleaning as required by health laws in many States, all that i then necessary is to depress the end 41 of spring 44 through the opening 48 of housing 31 by means of an ice pick or other pointed tool at hand, while atthe same time pulling upwardly on the lever 40 and the ejector mechanism. When the end 41 is'disengaged from opening 48 the entire ejector operatin assembly may be withdrawn upwardly from housing 31' and can be cleanedas a unit. Next the link 54' is removed from hub 32. The ejector arm 3.! and hub. Mare then removed by simply turning the ej ector blade for-ward, clear of the forward edges [6 and I1 and clear of guides 33 and 35. The hub and its integral arm may then belitted off its fulcrum pin 30.

It. is to be further observed that a structure of any shape or size with hollow walls providing a sealed chamber tor a suitable low freezing point materialcan be used conveniently. In this mannor any size and shape of ice cream dispensing device may deliver the product with the same ease and attractive appearance as the one illustrated.

Although ice cream has been continuously referred to asxillustrating the use of the invention, it is to be understood that it is equally effective in the dispensing of any frozen comestible and that the phrase ice cream is not by way of limitation but merely by way of illustration; Similarly, the words liquid refrigerant and low freezing point material are by way of specific examples, and it is contemplated that any -suitable material with a relatively low freezing point may be :used, whether a liquid, gas or solid.

I claim:

1. Adispenser of the character disclosed, com? prising .in combination two spaced double-walled sector-shaped members, an arcuate double wall joining said spaced members forming a receptacle for a serving, said double-walled sectors and said arcuate wall forming a communicating hollow chamber, a hollow handle mounted on the upper sector-shaped member with the hollow interiors of each communicating, a low freezing point medium confined within said hollow chambers, ejector means between said spaced sectorsha-ped members to close one side during filling of the receptacle and means to move the ejector means between the spaced sector-shaped members to clear the receptacle.

2. A dispenser of the character disclosed designed for use substantially in a horizontal plane,

comprising in combination two spaced doublewalled sector-shaped members, an arcuate double wall joining said spaced members forming a receptacle for a serving, said double walled sectors and said arcu-ate wall forming a communicating hollow chamber, a hollow handle mounted on the upper sector-shaped member with the hollow interiors of each communicating, said handle being mounted at an angle and upwardly with respect: to the plane of said upper sectoreshaped member, a low freezing point medium confined within said hollow chambers, ejector means between said spaced sector-shaped members to close one side during filling of the receptacle and means to move the ejector means between the spaced sector-shaped members to clear the receptacle.

3. An ice cream dispenser adapted to dispense a sector-shaped layer of ice cream comprising in combination, a pair of spaced hollow walled sector-shaped members, a hollow arcuate wall joining said members, a low freezing point medium confined within said hollow wall and said members, a handle mounted on the upper surface of the top sector-shaped member upwardly and at an angle to the plane of said surface, ejector means between said sector-shaped members normally adjacent the rear edge thereof, and means for advancing the ejector means to dispense the sector-shaped layer of ice cream and return it to its normal position.

4. An ice cream dispenser adapted to dispense a sector-shaped layer of ice cream comprising in combination, a pair of spaced hollow walled sector-shaped members, a hollow :arcuate wall joining said members, a low freezing point medium confined within said hollow wall and said members, said hollow interiors being in open communication, a substantially hollow handle mounted on the upper surface of the top sectorshaped member upwardly and at an angle to the plane of said surface, the interior of which communicates with the hollow interior of said surface, ejector means between said sector-shaped members normally adjacent the rear edge thereof and pivotally mounted at the apex of said sectorshaped members, and means for pivotally ,advancing the ejector means to dispense the sectorshaped l yer of ice cream and return it to its normal position.

LE ROY J. MCCOY, JR.

References Cited in the file of this patent UNITED STATES PATENTS Number Name Date 1,255,906 Miller Feb. 12, 1918 1,607,765 Levy ,Nov. 23, 1926 1,688,595 Parr Oct. 23, 1-928 1,769,218 Garvis July 1,1930 1,798,490 Parr Mar. 31, 1931 2,160,023 Kelly r May 30, 1939 2,171,606 Schultz Sept. ,5, 1939 

